Effect of Water Stress on Proline Synthesis from Radioactive Precursors

Boggess, Samuel F.; Stewart, Cecil R.; Aspinall, D.; Paleg, L. G.

doi:10.1104/pp.58.3.398

Cited by 151 publications

(69 citation statements)

References 14 publications

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“…This is contradictory to the fact that plants under stress continue to synthesize Pro and build up the Pro pool. To explain this paradox, it has been assumed that the P5CS enzyme may undergo a conformational change and lose its feedback regulation property (Boggess et al, 1976a(Boggess et al, , 1976b. We reasoned that if the feedback regulation of the wild-type P5CS is completely lost during stress, then expression of the mutant P5CS, i.e.…”

Section: Discussionmentioning

confidence: 99%

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Removal of Feedback Inhibition of Δ1-Pyrroline-5-Carboxylate Synthetase Results in Increased Proline Accumulation and Protection of Plants from Osmotic Stress

et al. 2000

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The ⌬ 1 -pyrroline-5-carboxylate synthetase (P5CS; EC not assigned) is the rate-limiting enzyme in proline (Pro) biosynthesis in plants and is subject to feedback inhibition by Pro. It has been suggested that the feedback regulation of P5CS is lost in plants under stress conditions. We compared Pro levels in transgenic tobacco (Nicotiana tabacum) plants expressing a wild-type form of Vigna aconitifolia P5CS and a mutated form of the enzyme (P5CSF129A) whose feedback inhibition by Pro was removed by site-directed mutagenesis. Transgenic plants expressing P5CSF129A accumulated about 2-fold more Pro than the plants expressing V. aconitifolia wild-type P5CS. This difference was further increased in plants treated with 200 mM NaCl. These results demonstrated that the feedback regulation of P5CS plays a role in controlling the level of Pro in plants under both normal and stress conditions. The elevated Pro also reduced free radical levels in response to osmotic stress, as measured by malondialdehyde production, and significantly improved the ability of the transgenic seedlings to grow in medium containing up to 200 mM NaCl. These findings shed new light on the regulation of Pro biosynthesis in plants and the role of Pro in reducing oxidative stress induced by osmotic stress, in addition to its accepted role as an osmolyte.

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Section: Discussionmentioning

confidence: 99%

“…Earlier experiments suggested that Pro accumulation in plants under stress may involve the loss of feedback regulation due to a conformational change in the P5CS protein (Boggess et al, 1976a(Boggess et al, , 1976b. In bacteria, Pro biosynthesis has been shown to be regulated by the end product inhibition of ␥-GK activity (Smith et al, 1984).…”

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confidence: 99%

Removal of Feedback Inhibition of Δ1-Pyrroline-5-Carboxylate Synthetase Results in Increased Proline Accumulation and Protection of Plants from Osmotic Stress

et al. 2000

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“…Experimental procedures were as previously described (3). Briefly, second leaves of 2-week-old barley plants (Hordeum vulgare cv Prior) were excised and allowed to take up radioactive precursor (L-U-_4C-arginine, 50 mCi/mol, obtained from Amersham/Searle and purified by elution from Dowex 50 in the ammonium form) in 4 ,1l aqueous solution.…”

Section: Methodsmentioning

confidence: 99%

“…Glutamic acid and arginine are likely precursors for water stress-induced proline synthesis, as either may be converted to P5C (Al-pyrroline-5-carboxylic acid) which is the immediate precursor of proline. While glutamate is clearly involved in proline synthesis during water stress (1,3,6), the contribution of arginine has not been evaluated. Although leaf tissues typically contain little free arginine, the inexplicably low protein-arginine content of wilted Bermuda grass leaves (1) suggests that in at least some cases, arginine might contribute significantly to the build up of free proline that occurs during water stress.…”

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Contribution of Arginine to Proline Accumulation in Water-stressed Barley Leaves

Boggess

Stewart

1976

Plant Physiol.

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Barley (Hordeum vulgare cv Prior) leaves converted L-U_'4C-arginine to labeled proline. Accumulation of radioactivity in proline was greater in wilted leaves, but only after 9 hours of incubation. As the increase in free proline was detectable after only 3 to 6 hours, it is likely that the observed stimulation of proline labeling represents a result rather than a cause of proline accumulation. Furthermore, the loss of total arginine during water stress was only 10 to 15% of the increase in proline. We condude that arginine probably contributes less than 1% of the carbon in the expanding proline pool of wilted barley leaves.Wilted leaves of certain plants accumulate quantities of free proline considerably greater than could be released through net protein breakdown (5). Most of the accumulated proline must, therefore, be synthesized from other compounds during the period of water stress. Glutamic acid and arginine are likely precursors for water stress-induced proline synthesis, as either may be converted to P5C (Al-pyrroline-5-carboxylic acid) which is the immediate precursor of proline. While glutamate is clearly involved in proline synthesis during water stress (1,3,6), the contribution of arginine has not been evaluated. Although leaf tissues typically contain little free arginine, the inexplicably low protein-arginine content of wilted Bermuda grass leaves (1) suggests that in at least some cases, arginine might contribute significantly to the build up of free proline that occurs during water stress. Experiments reported here were designed to clarify the involvement of arginine metabolism in the accumulation of proline by water-stressed barley leaves. MATERIALS AND METHODSExperimental procedures were as previously described (3). Briefly, second leaves of 2-week-old barley plants (Hordeum vulgare cv Prior) were excised and allowed to take up radioactive precursor (L-U-_4C-arginine, 50 mCi/mol, obtained from Amersham/Searle and purified by elution from Dowex 50 in the ammonium form) in 4 ,1l aqueous solution. Stressed leaves were previously excised and wilted to 75 % of initial fresh weight, and not rewatered after uptake of radioactive material; turgid leaves were kept in vials of distilled H20 for the rest of the experiment.

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“…High intracellular proline concentrations may protect against water stress, perhaps by an osmolar effect [l&19]. Proline accumulation probably results from an increased rate of synthesis, though transport may be important in some cases [20]. Studies on proline transport have been reported for algae, plant tissues and organelles [21-251. cultured embryos [30] and cells [29,3 1,321.…”

Section: Introductionmentioning

confidence: 99%

Rapid proline uptake in cultured tobacco cells and inhibition by a proline analog

Bernstein¹,

Henke²

1982

FEBS Letters

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Effect of Water Stress on Proline Synthesis from Radioactive Precursors

Cited by 151 publications

References 14 publications

Removal of Feedback Inhibition of Δ1-Pyrroline-5-Carboxylate Synthetase Results in Increased Proline Accumulation and Protection of Plants from Osmotic Stress

Removal of Feedback Inhibition of Δ1-Pyrroline-5-Carboxylate Synthetase Results in Increased Proline Accumulation and Protection of Plants from Osmotic Stress

Contribution of Arginine to Proline Accumulation in Water-stressed Barley Leaves

Rapid proline uptake in cultured tobacco cells and inhibition by a proline analog

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